MAY 01, 2017 08:32 AM PDT

DNA gives ants a bunch of surprising cousins

Ants and bees—which seem so different—are actually cousins, according to new research.

The new findings show unequivocally that ants’ closest living relatives are a superfamily called Apoidea, which includes bees and some solitary hunting wasps.

Within the superfamily Apoidea, two subfamilies of hunting wasps that include just over 2,000 species in total are the “sister group” (or closest living relatives) to bees, which includes over 20,000 described species, according to the study.

The study, which used cutting-edge DNA sequencing techniques to take a deep look at the taxonomic relationships among wasps, bees, and ants, helps settle an ongoing debate about the origins of ants and bees.

“There has been a long history of studying these questions but now, with the availability of DNA sequencing data, the scope of analysis has grown much larger,” says Bryan Danforth, professor of entomology and a coauthor of the paper. “We can now use 1,000 genes when 10 years ago we were using just a few genes.”

The study, published in Current Biology, also suggests that when early bees switched from preying on other insects to pollen feeding, the number of bee species exploded compared with their hunting wasp sister group.

“The switch from predatory behavior in hunting wasps to pollen feeding in bees has led to a tenfold increase in diversification. Our findings support the idea that the switch to a vegetarian lifestyle in bees is a really big deal in terms of explaining bee diversity on Earth,” Danforth says.

Meanwhile, ants share many similar features to their apoid relatives: Ants and most bees build nests; they are central-place foragers (meaning they return to fixed nest sites after foraging); and they both include social species. All species of ants and about 10 percent of bees show advanced forms of sociality.

“It may be that nest building, central-place foraging, and sociality all go together; these may be a suite of traits that have allowed ants to become the dominant insect group in terrestrial habitats and may have allowed bees to become the most important pollinators of flowering plants,” Danforth says.

In a collaboration with coauthors Sean Brady, an entomologist at the Smithsonian Institution, and James Pitts, a biologist at Utah State University, the researchers developed probes to uncover regions of wasp, bee, and ant genomes that are evolutionarily conserved (DNA sequences that have remained similar or identical across species).

After identifying those regions, the researchers sequenced DNA flanking these core regions where there was more variability. By aligning these genes across species and looking for similarities, the researchers were able to determine evolutionary relationships among the groups of ants, wasps, and bees.

The DNA sequencing took place at the Cornell Biotechnology Resource Center. Michael Branstetter, currently at the USDA Bee Biology and Systematics Laboratory in Logan, Utah, is the paper’s lead author. The study is part of an ongoing project funded by a National Science Foundation grant that will continue to analyze taxonomic relationships across Aculeata (stinging wasps), the infraorder that includes wasps, bees, and ants.

This article was originally published on futurity.org

About the Author
  • Futurity features the latest discoveries by scientists at top research universities in the US, UK, Canada, Europe, Asia, and Australia. The nonprofit site, which launched in 2009, is supported solely by its university partners (listed below) in an effort to share research news directly with the public.
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